The paper addresses the problem of out-of-distribution (OOD) generalization, where deep learning models typically suffer from performance degradation when tested on target domains with different distributions from the training data. The authors highlight that both domain-related features and class-shared features act as confounders that can mislead the model's predictions.
To address this issue, the authors propose the DICS (Domain-Invariant and Class-Specific) model, which consists of two key components:
Domain Invariance Testing (DIT): DIT learns and removes domain-specific features from each source domain to extract domain-invariant and class-related features. It also computes the similarity of extracted features of the same class across different domains to assess and enhance domain invariance.
Class Specificity Testing (CST): CST compares the input features with historical knowledge stored in an invariant memory queue to discern class differences. It optimizes the cross-entropy between the soft labels derived from the similarity matrix and the true labels, which enhances intra-class similarity and inter-class distinctiveness, thereby reinforcing class specificity.
The authors evaluate DICS on multiple datasets, including PACS, OfficeHome, TerraIncognita, and DomainNet, and demonstrate that it outperforms state-of-the-art methods in terms of accuracy. The visualizations further show that DICS effectively identifies the key features of each class in target domains, which are crucial for accurate classification.
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arxiv.org
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by Qiaowei Miao... : arxiv.org 09-16-2024
https://arxiv.org/pdf/2409.08557.pdfDaha Derin Sorular